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नासिक घटना पर हुआ बड़ा खुलासा, सामने आई यह चौंकाने वाली बात...

नासिक घटना पर हुआ बड़ा खुलासा, सामने आई यह चौंकाने वाली बात...
webdunia.com - get the latest breaking news, showbiz & celebrity photos, sport news & rumours, viral videos and top stories from webdunia.com Daily Mail and Mail on Sunday newspapers.

Nippon Corporation , Ii Pma Center , Japanese The Company , City Corporation , His Operations , Nashik City , Hussein Hospital , Operations March , நிப்பான் நிறுவனம் , நகரம் நிறுவனம் , நாசிக் நகரம் , ஹுசைன் மருத்துவமனை , செயல்பாடுகள் அணிவகுப்பு ,

Nashik: Supply Started Just 21 Days Before By The Oxygen Tank, Which Was The Cause Of 24 Deaths - नासिक: 24 मौतों का सबब बने ऑक्सीजन टैंक से 21 दिन पहले ही शुरू हुई थी आपूर्ति, लापरवाही का केस दर्ज

Nashik: Supply Started Just 21 Days Before By The Oxygen Tank, Which Was The Cause Of 24 Deaths - नासिक: 24 मौतों का सबब बने ऑक्सीजन टैंक से 21 दिन पहले ही शुरू हुई थी आपूर्ति, लापरवाही का केस दर्ज
amarujala.com - get the latest breaking news, showbiz & celebrity photos, sport news & rumours, viral videos and top stories from amarujala.com Daily Mail and Mail on Sunday newspapers.

Amar Ujala , Surender Joshi , Nippon Corporation , Ii Pma Center , Japanese The Company , City Corporation , His Operations , Nashik City , Hussein Hospital , Operations March , அமர் உஜலா , நிப்பான் நிறுவனம் , நகரம் நிறுவனம் , நாசிக் நகரம் , ஹுசைன் மருத்துவமனை , செயல்பாடுகள் அணிவகுப்பு ,

Researchers show clean solid–electrolyte/electrode interfaces double capacity of solid-state Li batteries

Researchers show clean solid–electrolyte/electrode interfaces double capacity of solid-state Li batteries
Scientists at Tokyo Institute of Technology (Tokyo Tech), Tohoku University, National Institute of Advanced Industrial Science and Technology, and Nippon Institute of Technology, have demonstrated by experiment that a clean electrolyte/electrode interface is key to realizing high-capacity solid-state lithium batteries (SSLBs). Their findings could pave the way for improved battery designs with increased capacity, stability, and safety for both mobile devices and electric vehicles. A paper on their work appears in the journal
ACS Applied Materials & Interfaces.
Solid-state lithium batteries comprise solid electrodes and a solid electrolyte that exchange lithium (Li) ions during charging and discharging. Their higher energy density and safety make SSLBs very attractive as next-generation sstorage solutions. ....

Japan General , Hideyuki Kawasoko , Nippon Institute Of Technology , National Institute Of Advanced Industrial Science , Tohoku University , Tokyo Institute , Tokyo Tech , National Institute , Advanced Industrial Science , Nippon Institute , Assistant Professor Hideyuki Kawasoko , ஜப்பான் ஜநரல் , நிப்பான் நிறுவனம் ஆஃப் தொழில்நுட்பம் , தோஹோக்கு பல்கலைக்கழகம் , டோக்கியோ நிறுவனம் , டோக்கியோ தொழில்நுட்பம் , தேசிய நிறுவனம் , நிப்பான் நிறுவனம் ,

Keeping a clean path: Doubling the capacity of solid-state lithium batteries

Credit: Taro Hitosugi
Scientists at Tokyo Institute of Technology (Tokyo Tech), Tohoku University, National Institute of Advanced Industrial Science and Technology, and Nippon Institute of Technology, demonstrated by experiment that a clean electrolyte/electrode interface is key to realizing high-capacity solid-state lithium batteries. Their findings could pave the way for improved battery designs with increased capacity, stability, and safety for both mobile devices and electric vehicles.
Liquid lithium-ion batteries are everywhere, being found in the majority of everyday mobile devices. While they possess a fair share of advantages, liquid-based batteries carry notable risks as well. This has become clear to the public in recent years after reports of smartphones bursting into flames due to design errors that caused the battery s liquid electrolyte to leak and catch fire. ....

Japan General , Hideyuki Kawasoko , Global Zero Emission Research Center , National Institute Of Advanced Industrial Science Technology , Nippon Institute Of Technology , National University , National Institute Of Advanced Industrial Science , Tokyo Institute Of Technology , Tohoku University , Tokyo Institute , Tokyo Tech , National Institute , Advanced Industrial Science , Nippon Institute , Taro Hitosugi , Professor Hideyuki Kawasoko , Designated National University , East Japan Earthquake , Chemistry Physics Materials Sciences , Atomic Molecular Particle Physics , Energy Fuel Non Petroleum , ஜப்பான் ஜநரல் , உலகளாவிய பூஜ்யம் உமிழ்வு ஆராய்ச்சி மையம் , நிப்பான் நிறுவனம் ஆஃப் தொழில்நுட்பம் , தேசிய பல்கலைக்கழகம் , டோக்கியோ நிறுவனம் ஆஃப் தொழில்நுட்பம் ,

Keeping a Clean Path: Doubling Capacity of Solid-State Lithium Batteries

2NMO phases during charging and discharging. They also studied the initial distribution of L
2NMO at clean LPO/LNMO interfaces fabricated in a vacuum, as well as the effect of electrode thickness.
Strikingly, the clean interface facilitated the intercalation and deintercalation of Li during charging and discharging of the SSLBs. As a result, the capacity of SSLBs with a clean interface was twice that of conventional LNMO-based batteries. Moreover, this study marked the first time stable reversible reactions were found between the L
NMO and L
2NMO phases in SSLBs.
Assistant Professor Hideyuki Kawasoko of Tohoku University and lead author of the study remarked, “Our findings indicate that the formation of a contamination-free, clean LPO/LNMO interface is key to increasing the capacity of SSLBs while ensuring low interface resistance for fast charging.” ....

Japan General , Hideyuki Kawasoko , Nippon Institute Of Technology , National Institute Of Advanced Industrial Science , Tohoku University , Tokyo Institute , Tokyo Tech , National Institute , Advanced Industrial Science , Nippon Institute , Clean Path , Solid State Lithium , Taro Hitosugi , Professor Hideyuki Kawasoko , Tokyo Institute Of Technology , Electric Vehicle , Electric Car , Fair Share , ஜப்பான் ஜநரல் , நிப்பான் நிறுவனம் ஆஃப் தொழில்நுட்பம் , தோஹோக்கு பல்கலைக்கழகம் , டோக்கியோ நிறுவனம் , டோக்கியோ தொழில்நுட்பம் , தேசிய நிறுவனம் , நிப்பான் நிறுவனம் , சுத்தமான பாதை ,